|Teaching method||Contact hours|
|Course coordinator(s)||ir. FJ Vergeldt|
|Lecturer(s)||ir. FJ Vergeldt|
|prof. dr. H van Amerongen|
|dr. AN Bader|
|Examiner(s)||ir. FJ Vergeldt|
Language of instruction:
Assumed knowledge on:
BIP-10303 Physics MLS
BIP-24806 Atomic and Molecular Structure
Experimental and theoretical principles of Quantum Mechanics as far as necessary for the understanding of atomic and molecular structures. E.g.: particle in a potential well, harmonic oscillator, on a ring, and on a sphere.
After successful completion of this course students are expected to be able to:
- understand why classical mechanics is replaced by quantum mechanics to describe the behavior of microscopic systems;
- apply the Schrödinger equation to describe the dynamics of quantum systems;
- apply the concepts of wavefunctions, the Born interpretation, observables, superposition of states, expectation values and the Heisenberg uncertainty relation;
- use these principles to describe translation motion, tunnelling, vibrational motion and rotational motion of quantum mechanical systems.
- prepare and attend the lectures, preceding the tutorials;
- learn and understand by exercises, independent and under supervision;
- participate in computer practicals.
Written examination with open questions. The minimum mark for a pass is 5.5.
Atkins, P.; de Paula, J.; Keeler, J. (2017). Atkins' Physical Chemistry, 11th ed. ISBN 9780198769866. Available at the WUR-shop.
|Compulsory for:||BML||Molecular Life Sciences||BSc||6WD|